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// Copyright (c) 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef QUICHE_SPDY_CORE_PRIORITY_WRITE_SCHEDULER_H_
#define QUICHE_SPDY_CORE_PRIORITY_WRITE_SCHEDULER_H_
#include <algorithm>
#include <cstddef>
#include <cstdint>
#include <tuple>
#include <unordered_map>
#include <utility>
#include <vector>
#include "net/third_party/quiche/src/http2/platform/api/http2_containers.h"
#include "net/third_party/quiche/src/spdy/core/spdy_protocol.h"
#include "net/third_party/quiche/src/spdy/core/write_scheduler.h"
#include "net/third_party/quiche/src/spdy/platform/api/spdy_bug_tracker.h"
#include "net/third_party/quiche/src/spdy/platform/api/spdy_logging.h"
#include "net/third_party/quiche/src/spdy/platform/api/spdy_macros.h"
#include "net/third_party/quiche/src/spdy/platform/api/spdy_string.h"
#include "net/third_party/quiche/src/spdy/platform/api/spdy_string_utils.h"
namespace spdy {
namespace test {
template <typename StreamIdType>
class PriorityWriteSchedulerPeer;
}
// WriteScheduler implementation that manages the order in which streams are
// written using the SPDY priority scheme described at:
// https://www.chromium.org/spdy/spdy-protocol/spdy-protocol-draft3-1#TOC-2.3.3-Stream-priority
//
// Internally, PriorityWriteScheduler consists of 8 PriorityInfo objects, one
// for each priority value. Each PriorityInfo contains a list of streams of
// that priority that are ready to write, as well as a timestamp of the last
// I/O event that occurred for a stream of that priority.
//
// DO NOT USE. Deprecated.
template <typename StreamIdType>
class PriorityWriteScheduler : public WriteScheduler<StreamIdType> {
public:
using typename WriteScheduler<StreamIdType>::StreamPrecedenceType;
// Creates scheduler with no streams.
PriorityWriteScheduler() : PriorityWriteScheduler(kHttp2RootStreamId) {}
explicit PriorityWriteScheduler(StreamIdType root_stream_id)
: root_stream_id_(root_stream_id) {}
void RegisterStream(StreamIdType stream_id,
const StreamPrecedenceType& precedence) override {
// TODO(mpw): verify |precedence.is_spdy3_priority() == true| once
// Http2PriorityWriteScheduler enabled for HTTP/2.
// parent_id not used here, but may as well validate it. However,
// parent_id may legitimately not be registered yet--see b/15676312.
StreamIdType parent_id = precedence.parent_id();
SPDY_DVLOG_IF(1,
parent_id != root_stream_id_ && !StreamRegistered(parent_id))
<< "Parent stream " << parent_id << " not registered";
if (stream_id == root_stream_id_) {
SPDY_BUG << "Stream " << root_stream_id_ << " already registered";
return;
}
StreamInfo stream_info = {precedence.spdy3_priority(), stream_id, false};
bool inserted =
stream_infos_.insert(std::make_pair(stream_id, stream_info)).second;
SPDY_BUG_IF(!inserted) << "Stream " << stream_id << " already registered";
}
void UnregisterStream(StreamIdType stream_id) override {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_BUG << "Stream " << stream_id << " not registered";
return;
}
StreamInfo& stream_info = it->second;
if (stream_info.ready) {
bool erased =
Erase(&priority_infos_[stream_info.priority].ready_list, stream_info);
DCHECK(erased);
}
stream_infos_.erase(it);
}
bool StreamRegistered(StreamIdType stream_id) const override {
return stream_infos_.find(stream_id) != stream_infos_.end();
}
StreamPrecedenceType GetStreamPrecedence(
StreamIdType stream_id) const override {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_DVLOG(1) << "Stream " << stream_id << " not registered";
return StreamPrecedenceType(kV3LowestPriority);
}
return StreamPrecedenceType(it->second.priority);
}
void UpdateStreamPrecedence(StreamIdType stream_id,
const StreamPrecedenceType& precedence) override {
// TODO(mpw): verify |precedence.is_spdy3_priority() == true| once
// Http2PriorityWriteScheduler enabled for HTTP/2.
// parent_id not used here, but may as well validate it. However,
// parent_id may legitimately not be registered yet--see b/15676312.
StreamIdType parent_id = precedence.parent_id();
SPDY_DVLOG_IF(1,
parent_id != root_stream_id_ && !StreamRegistered(parent_id))
<< "Parent stream " << parent_id << " not registered";
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
// TODO(mpw): add to stream_infos_ on demand--see b/15676312.
SPDY_DVLOG(1) << "Stream " << stream_id << " not registered";
return;
}
StreamInfo& stream_info = it->second;
SpdyPriority new_priority = precedence.spdy3_priority();
if (stream_info.priority == new_priority) {
return;
}
if (stream_info.ready) {
bool erased =
Erase(&priority_infos_[stream_info.priority].ready_list, stream_info);
DCHECK(erased);
priority_infos_[new_priority].ready_list.push_back(&stream_info);
++num_ready_streams_;
}
stream_info.priority = new_priority;
}
std::vector<StreamIdType> GetStreamChildren(
StreamIdType /*stream_id*/) const override {
return std::vector<StreamIdType>();
}
void RecordStreamEventTime(StreamIdType stream_id,
int64_t now_in_usec) override {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_BUG << "Stream " << stream_id << " not registered";
return;
}
PriorityInfo& priority_info = priority_infos_[it->second.priority];
priority_info.last_event_time_usec =
std::max(priority_info.last_event_time_usec, now_in_usec);
}
int64_t GetLatestEventWithPrecedence(StreamIdType stream_id) const override {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_BUG << "Stream " << stream_id << " not registered";
return 0;
}
int64_t last_event_time_usec = 0;
const StreamInfo& stream_info = it->second;
for (SpdyPriority p = kV3HighestPriority; p < stream_info.priority; ++p) {
last_event_time_usec = std::max(last_event_time_usec,
priority_infos_[p].last_event_time_usec);
}
return last_event_time_usec;
}
StreamIdType PopNextReadyStream() override {
return std::get<0>(PopNextReadyStreamAndPrecedence());
}
// Returns the next ready stream and its precedence.
std::tuple<StreamIdType, StreamPrecedenceType>
PopNextReadyStreamAndPrecedence() override {
for (SpdyPriority p = kV3HighestPriority; p <= kV3LowestPriority; ++p) {
ReadyList& ready_list = priority_infos_[p].ready_list;
if (!ready_list.empty()) {
StreamInfo* info = ready_list.front();
ready_list.pop_front();
--num_ready_streams_;
DCHECK(stream_infos_.find(info->stream_id) != stream_infos_.end());
info->ready = false;
return std::make_tuple(info->stream_id,
StreamPrecedenceType(info->priority));
}
}
SPDY_BUG << "No ready streams available";
return std::make_tuple(0, StreamPrecedenceType(kV3LowestPriority));
}
bool ShouldYield(StreamIdType stream_id) const override {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_BUG << "Stream " << stream_id << " not registered";
return false;
}
// If there's a higher priority stream, this stream should yield.
const StreamInfo& stream_info = it->second;
for (SpdyPriority p = kV3HighestPriority; p < stream_info.priority; ++p) {
if (!priority_infos_[p].ready_list.empty()) {
return true;
}
}
// If this priority level is empty, or this stream is the next up, there's
// no need to yield.
const auto& ready_list = priority_infos_[it->second.priority].ready_list;
if (ready_list.empty() || ready_list.front()->stream_id == stream_id) {
return false;
}
// There are other streams in this priority level which take precedence.
// Yield.
return true;
}
void MarkStreamReady(StreamIdType stream_id, bool add_to_front) override {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_BUG << "Stream " << stream_id << " not registered";
return;
}
StreamInfo& stream_info = it->second;
if (stream_info.ready) {
return;
}
ReadyList& ready_list = priority_infos_[stream_info.priority].ready_list;
if (add_to_front) {
ready_list.push_front(&stream_info);
} else {
ready_list.push_back(&stream_info);
}
++num_ready_streams_;
stream_info.ready = true;
}
void MarkStreamNotReady(StreamIdType stream_id) override {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_BUG << "Stream " << stream_id << " not registered";
return;
}
StreamInfo& stream_info = it->second;
if (!stream_info.ready) {
return;
}
bool erased =
Erase(&priority_infos_[stream_info.priority].ready_list, stream_info);
DCHECK(erased);
stream_info.ready = false;
}
// Returns true iff the number of ready streams is non-zero.
bool HasReadyStreams() const override { return num_ready_streams_ > 0; }
// Returns the number of ready streams.
size_t NumReadyStreams() const override { return num_ready_streams_; }
SpdyString DebugString() const override {
return SpdyStrCat(
"PriorityWriteScheduler {num_streams=", stream_infos_.size(),
" num_ready_streams=", NumReadyStreams(), "}");
}
// Returns true if a stream is ready.
bool IsStreamReady(StreamIdType stream_id) const {
auto it = stream_infos_.find(stream_id);
if (it == stream_infos_.end()) {
SPDY_DLOG(INFO) << "Stream " << stream_id << " not registered";
return false;
}
return it->second.ready;
}
private:
friend class test::PriorityWriteSchedulerPeer<StreamIdType>;
// State kept for all registered streams. All ready streams have ready = true
// and should be present in priority_infos_[priority].ready_list.
struct StreamInfo {
SpdyPriority priority;
StreamIdType stream_id;
bool ready;
};
// O(1) size lookup, O(1) insert at front or back (amortized).
using ReadyList = http2::Http2Deque<StreamInfo*>;
// State kept for each priority level.
struct PriorityInfo {
// IDs of streams that are ready to write.
ReadyList ready_list;
// Time of latest write event for stream of this priority, in microseconds.
int64_t last_event_time_usec = 0;
};
typedef std::unordered_map<StreamIdType, StreamInfo> StreamInfoMap;
// Erases first occurrence (which should be the only one) of |info| in
// |ready_list|, returning true if found (and erased), or false otherwise.
// Decrements |num_ready_streams_| if an entry is erased.
bool Erase(ReadyList* ready_list, const StreamInfo& info) {
auto it = std::find(ready_list->begin(), ready_list->end(), &info);
if (it == ready_list->end()) {
return false;
}
ready_list->erase(it);
--num_ready_streams_;
return true;
}
// Number of ready streams.
size_t num_ready_streams_ = 0;
// Per-priority state, including ready lists.
PriorityInfo priority_infos_[kV3LowestPriority + 1];
// StreamInfos for all registered streams.
StreamInfoMap stream_infos_;
StreamIdType root_stream_id_;
};
} // namespace spdy
#endif // QUICHE_SPDY_CORE_PRIORITY_WRITE_SCHEDULER_H_